Week 2

Question 1

Endocrine chemical messenger cells:

Answer 1

secrete hormone into the blood
specific target cells that can be very far away
usually high concentrations to react all over body (insulin, glucagon, cortisol)

Question 2

Paracrine chemical messenger cells:

Answer 2

Actions performed on nearby cells
Only need low amounts of secretions to only act locally
Location of cells plays a role in specificity of response

Question 3

Autocrine chemical messenger cells:

Answer 3

Act on the cell from which it is secreted or on nearby cells that are of the same type
Most autocrine cells are also paracrine cells

Question 4

Hydrophobic chemical messengers are specific for _______ _______

Answer 4

Intracellular receptors (Ex: Steroid hormones  - cortisol)
- also called Lipophilic hormones

Question 5

For intracellular receptors and hydrophobic messengers like cortisol, are they fast or slow to change cellular phenotype after eliciting a transcriptional response?

Answer 5

Slow

Question 6

______ chemical messengers are specific for plasma membrane (cell surface) receptors.

Answer 6

Hydrophilic

Question 7

What are the examples of the Cell surface membrane receptors?

Answer 7

Serine/threonine kinases (heterodimirical)
Tyrosine kinases (insulin)
Jak-STAT signaling
G-protein coupled receptors

Question 8

How do cell surface membrane receptors change enzyme activity ? direct or indirect? what type of interactions? Fast or slow to change phenotype?

Answer 8

Direct
Protein-protein interactions
Fast to change phenotype

Question 9

What does cortisol need to attach when traveling in bloodstream due to it being hydrophobic?

Answer 9

Attach to serum albumin (plasma protein) and steroid hormone binding globulin

Question 10

Where is cortisol released from?

Answer 10

Adrenal Cortex and diffuses into bloodstream

Question 11

What does Cortisol bind to?

Answer 11

Cortisol receptors (intracellular) in the cytosol after diffusion through plasma membrane

Question 12

What are the 3 domains of the Cortisol receptors?

Answer 12

1. Transactivation Domain
2. DNA binding domain
3. Ligand binding domain

Question 13

What does the Ligand binding domain on Cortisol receptors do?

Answer 13

Causes conformation change in receptor

• Dimerization of receptors
• Exposes a nuclear translocation signal- allows hormone receptor to cross the nuclear membrane into nucleus

Question 14

What does the Hormone receptor complex for Cortisol do once in the nucleus?

Answer 14

Acts as transcription factor

-Binds to portion of DNA called the hormone response element or GRE (glucocorticoid response element)

Question 15

What is the name or the section that the hormone receptor complex for cortisol binds to once in the nucleus?

Answer 15

Glucocorticoid response element (GRE)

-or called hormone response element

Question 16

What happens after the Glucocorticoid response element (GRE) is bout to by the cortisol receptor hormone complex once inside nucleus?

Answer 16

Induction (increase) or Repression (decrease) in gene transcription depending on the location of the GRE that is bound on DNA

Question 17

How is the signal that the cortisol receptor induces terminated? where in the chain of events?

Answer 17

Cortisol concentration is lowered by the liver destroying cortisol (degrading) so that less signaling occurs

Question 18

Where are Tyrosine Kinase receptors (insulin signaling)?

Answer 18

TK receptors are in the cell membrane (transmembrane)

-Function as dimmers

Question 19

What happens after the insulin hormone binds to the receptor?

Answer 19

Autophosphorylation occurs on inner side of receptor
IRS (insulin receptor substrate) protein is then bound to receptor and forms a phosphorylated tyrosyl residue (tyrosine) at multiple sites

Question 20

What happens during the tyrosine kinase insulin pathway after the tyrosyl residue is phosphorylated on the IRS proteins?

Answer 20

Multiple different proteins can bind to different phosphorylated tyrosyl residues

Question 21

What different proteins can bind to the phosphorylated tyrosyl residue on the IRS protein that is bound on the intermembrane side of the insulin hormone receptor?

Answer 21

PI-3 kinase (Phosphoinostitol 3 Kinase)
PLC (Phosophlipase C)
Grb2
(all have SH2 domain that binds to different sites on phosphate group of IRS protein)

Question 22

What does the Grb2 bind in the specific Insulin pathway (Tyrosine Kinase pathway example)?

Answer 22

Activated Grb2 binds to GAP1 (or a SOS-GEF) which is connected to a PIP in the membrane

Question 23

What happens to the SOS-Ras complex after is has a conformation change in the general Tyrosine Kinase pathway and GDP was exchanged for GTP?

Answer 23

Ras-GTP binds to Raf to activate it

Question 24

What is the purpose of activating Raf in the general Tyrosine kinase pathway by the Ras-GTP complex?

Answer 24

Activated Raf is the first step in a MAP-kinase cascade that can lead to a change in gene transcription

Question 25

What does PIP stand for in the insulin tyrosine-kinase signaling pathway?

Answer 25

Phosophtidylinositol signaling

Question 26

What does the Pl-3 kinase do to the PIP in the membrane during the insulin tyrosine kinase pathway?

Answer 26

Recognizes PI 4,5-bisP and phosphorylates it into PI 3,4,5,-trisP (just adds one phosphate group)

Question 27

What happens after the PI 4,5-bisP is turned into PI 3,4,5-trisP in the insulin tyrosine-kinase pathway?

Answer 27

Phosphoinostitol Dependent Kinase 1 (PDK 1)
and
Protein Kinase B (PK B)
both are attracted to side due to their pleckstrin homology domains and both bind

Question 28

What is the similarity that PDK 1 and PK B share that attracts both of them to bind PI 3,4,5,-trisP in the insulin tyrosine kinase pathway?

Answer 28

both have Pleckstrin Homology domains for binding

Question 29

What happens after PDK1 and PKB are bound to PI 3,4,5, trisP in the insulin tyrosine kinase pathway?

Answer 29

PKB (protein Kinase B) is phosphorylated and activated by PDK 1 (Phosphoinostitol Dependent Kinase 1)
PKB is released in active form as second messenger to trigger MAP Kinase signaling pathway downstream (analogous to Raf protein in general Tyrosine-kinase pathway)

Question 30

In the general Tyrosine kinase pathway, what does Grb2 have bind to it and activate ?

Answer 30

Once Grb2 is bound on SH2 side, conformation change occurs on SH3 domain (opposite side) and attracts a protein SOS (Guanine exchange factor or GEF)

Question 31

What does SOS or GEF (Guanine exchange factor) do in the general tyrosine kinase pathway?

Answer 31

binds with Ras which is bound on the inner leaflet of the cellular membrane

Question 32

In the general Tyrosine-kinase pathway, what happens after the Ras is bound by GEF?

Answer 32

the Ras is holding GDP and it is exchanged for GTP which then attracts Raf to bind to it to activate Raf

Question 33

What is the purpose of activation of the Raf that binds to Ras holding GTP?

Answer 33

MAP kinase signaling pathway is activated to elicit transcription response/cellular response induced by the original signaling molecule outside the cell

Question 34

What does MAP kinase stand for?

Answer 34

Mitogen-activated protein kinase

-are specific to serine, threonine, and tyrosine

Question 35

What are the sites by the Ligand binding domain on the steroid hormone receptor (Glucocorticoid receptor)?

Answer 35

Dimerization sites
Inhibitor binding sites
NLS

Question 36

What is another name for the Glucocorticoid receptor?

Answer 36

Steroid hormone receptor (intracellular receptor) for cortisol

Question 37

What is the example of an Intracellular receptor ?

Answer 37

Glucocorticoid receptor (steroid hormones)

Question 38

What are the three main domains on the Glucocorticoid receptor (intracellular)?

Answer 38

Transactivation Domain  (TAD)
DNA- binding domain (DBD)
Ligand binding Domain (LBD)

Question 39

What are the 3 extra sites on the Glucocorticoid receptor that are near the Ligand binding domain ?

Answer 39

Dimerization sites (Dimer-Dimer formation)
Inhibitor-binding sites
Nuclear Localization signal (targets it to nucleus)

Question 40

In the absence of Ligand in the cytosol, what are the two proteins that are bound to eachother keeping the Glucocorticoid Receptor inactive (GR)?

Answer 40

Heat-shock protein is bound to the GR

Question 41

What happens when cortisol is present in the cytosol to the heat-shock protein and GR?

Answer 41

heat-shock protein releases from GR

Cortisol will bind as substrate to GR, activating GR

Question 42

What happens when GR is activated by Cortisol binding?

Answer 42

Conformational change (Dimer-Dimer formation) and 3 sites are exposed now:
Transactivation domain (TAD)
DNA-binding domain  (DBD)
Nuclear localization signal (NLS)

Question 43

Where does the GR that has been activated bind to once it has entered the Nuclear pore and the nucleus?

Answer 43

GRE = Glucocorticoid response element

-specific site on DNA upstream from transcription site

Question 44

What does the GRE in the nucleus do once it is activated by Glucocorticoid receptor ?

Answer 44

Can increase induce or repress gene transcription based on location of GRE that is bound:
Recruit Co-Acivators that are associated with activating:
Basal transcription complex - increases gene transcription
HORMONE RECEPTOR COMPLEX is a Transcription factor

Question 45

Glucocorticoid response element (GRE) in nucleus on DNA is upstream of many genes for transcription, so in the presence of ________ there are changes in transcription of many different genes.

Answer 45

Cortisol

Question 46

What other substrates act similarly to the Cortisol pathway for intracellular receptors that are transported into the nucleus?

Answer 46

Vitamin D
Retinoic Acid
Cortisol

Question 47

What is different in the Serine-Threonine Kinase receptors from the Tyrosine kinase receptors?

Answer 47

Receptors usually form heterodimers instead of homodimers

Type II receptor will autophosphorylate the type 1 receptor upon ligand binding

Question 48

What happens in Serine-Threonine Kinase pathway (in TGF-Beta example) after the Type 1 receptor is phosphorylated by the Type II receptor to be activated?

Answer 48

Serine phosphorylated section of Type 1 receptor recruits:

R-Smad proteins

Question 49

What happens after R-Smad proteins are bound to the phosphorylated Serine on the Type 1 receptor for the TGF-Beta receptor?

Answer 49

R-smad phosphorylates itself on several Serine sites

Question 50

What happens after R-smad phosphorylates itself on its own Serine sites?

Answer 50

R-smad is released and then binds with Co-Smad and makes a complex that migrates to nucleus to impact transcription

Question 51

What is the basic structure of a G-Protein receptor complex?

Answer 51

1. Heptahelical receptors (7 alpha helixes) on external membrane with 7 transmembrane domains
2. Heterotrimeric G-protein on intracellular membrane
3. G-protein itself has an Alpha, Beta, Gamma section that spilts to activate separate pathways

Question 52

What 3 pathway signaling cascades with G-Protein potentially activate?

Answer 52

cAMP
DAG
IP3 
(all second messengers)
-leads to cellular response

Question 53

What happens after a ligand binds to the heptahelical receptor connected to G-protein?

Answer 53

G-alpha-S subunit of G-protein is holding GDP and exchanges it for GTP (site conformational change to face more cytosol where [GTP] is higher so it will exchange) to activate the subunit and dissociate it from Beta and Gamma units

Question 54

what happens after G-alpha-S subunit of G-protein after it dissociates from the Beta and Gamma units and the membrane (activated by exchanging GDP to GTP) ?

Answer 54

G-alpha-S binds and activates Adenylyl cyclase protein in membrane and keeps it active until EXHANGES own GTP back for GDP+inorganic phosphate group through hydrolysis and unbinds

Question 55

What happens when the Adenylyl (Adenylate) cyclase is activated by G-alpha-S ?

Answer 55

Adenylyl cyclase turns ATP into cAMP (second messenger)

Question 56

What happens to the phosphate groups when ATP is converted by Adenylyl cyclase to cAMP?

Answer 56

chain of 3 phosphates taken away and only one phosphate group is left that has 1 Oxygen on Carbon3 and one on Carbon 5
(aka 3,5-cyclic AMP)

Question 57

What is the other name for cAMP?

Answer 57

3,5,-cyclic AMP

Question 58

What regulates cAMP? where is it located?

Answer 58

cAMP phosphodiesterase

Found in cell membrane - intracellular side

Question 59

What type of regulation and what does it do:

cAMP phosphodiesterase ?

Answer 59

Negative regulation- degrades the cAMP back to 5-AMP from cAMP so that the phosphate group is attached like it was on ATP (but just one phosphate group hence the “M”)

Question 60

What does ATP stand for ?

Answer 60

Adenosine triphosphate

Question 61

What is the example of the G-Protein receptor complex pathway?

Answer 61

Glucagon receptor

Question 62

What happens in the Glucagon receptor pathway (G-protein example) after cAMP is produced by Adenylyl cyclase ?

Answer 62

cAMP is second messenger and binds Protein Kinase A in regulatory subunit-cAMP and activates PKA

Question 63

What does an activated Protein Kinase A in the glucagon receptor pathway do (G-protein example)?

Answer 63

Leads to phosphorylation of many proteins in metabolism in cytosol

1. Glycogen synthase is inactivated by phosphorylation (ATP to ADP used)
2. Phosphorylase kinase is activated by phosphorylation (ATP to ADP used)

Question 64

What happens in Glucagon pathway after the Protein Kinase A activates Phosphorylase Kinase by phosphorylating it?

Answer 64

1. Phosphorylase kinase will phosphorylate the inactive Phosphorylase-B into active form Phosphorylase-A
2. Phosphorylase A used to degrogate Glycogen in liver (break down)

Question 65

How do you regulate cellular messaging at the secondary messenger level?

Answer 65

1. Diffusion degradation
2. Desensitization downregulation (excessive messengers)
3. Phosphodiesterases can degrogate cAMP or second messengers

Question 66

How do you regulate the G-Protein at the G-aplpha-S subunit level?

Answer 66

Using GTPases that reduce GTP back to GDP preventing the G-Alpha-S subunit from activating

Question 67

What are Jak-STAT proteins also referred to as?

Answer 67

Tyrosine Kinase ASSOCIATED receptors

Question 68

What is different from Jak-STAT receptor proteins and normal Tyrosine kinase receptors like in insulin pathway?

Answer 68

Jak-STAT proteins do not have intrinsic Tyrosine activity, but bind a Tyrosine Kinase (Jak type) that are the ones phosphorylated

Question 69

What happens in the first step of Jak-STAT proteins?

Answer 69

Cytokines bind to receptors, both receptors dimerize and bind Jak (Janus Kinase)

Question 70

What does Jak in Jak-STAT stand for ?

Answer 70

Janus Kinase

Question 71

What happens after Jak binds to the transmembrane receptors?

Answer 71

Autophosphorylation of the Jak and then of the Receptor ends too

Question 72

What happens after the Jak (Janus Kinase) and their receptors they are bound to phosphorylate?

Answer 72

Recruits STAT family of proteins that are phosphorylated (gene specific transcription factors = more direct than tyrosine kinase normal pathway) - will directly translocate to nucleus and impact transcription
-STATS dissociate from receptor, dimerize, then translocate into nucleus

Question 73

What does Phosphatidylinositol 3’4’5’-tris-phosphate (PI-3,4,5, trisP) serve as in the cell?

Answer 73

plasma membrane docking site for signal transduction proteins with Pleckstrin homology (localizes the bound proteins to cell membrane)

Question 74

What two proteins have Pleckstrin homology domains?

Answer 74

PKD1 (phosphinostitol kinase dependent 1)

PKB (Protein Kinase B)

Question 75

Some downstream signaling of GPCRs involve activation of _________. A G-protein designated ____ activates one form of it.

Answer 75

Phospholipase C

Gq (G-protein)

Question 76

When a particular GPCR (receptor) is activated, GTP exchanges for GDP, then Gqa-GTP activates ________.

Answer 76

Phospholipase C

Question 77

How is Phosphatidylinositol 4,5 bisphosphate (PIP 2) activated by ATP and kinases?

Answer 77

Kinases catalyze sequential transfer Phosphate group (Pi) from ATP to hydroxyl groups at positions 5 and 4 of the inositol ring of phosphatidylinositol (in membrane)

Question 78

Cleavage of PIP 2 (phosphatidylinositol 4,5 bisphosphate) in the inner leaflet by _________ yields 2 second messengers : _________ and _________.

Answer 78

1. Phospholipase C (cleaves phospho bonds)
2. Inositol 1,4,5-trisphosphate (IP3)
3. Diacylglycerol (DG)

Question 79

What is the common role for Inositol triphosphate ? (IP3 or Inositol 1,4,5,-tris phosphate)

Answer 79

1. broken off from PI 4,5, bis-phosphate by a Phospholipase C-isoenzyme (generates IP3 and DAG)
2. Floats around as second messenger

Question 80

What is Phospholipase C activated by ?

Answer 80

Heptahelical receptor-G-protein signal transduction pathway

Question 81

What does Phospholipase C (PLC) cleave PI-4,5,-bisP after it was phosphorylated from Phosphotidylinositol by kinases that phosophoryated the inositol ring at 4 and 5 positions ?

Answer 81

DAG
Inositol 1,4,5,-tris-phosphate (IP3)
BOTH SECOND MESSENGERS

Question 82

What can PI 4,5,-bis-phosphate be turned into besides IP3 and DAG? and by who?

Answer 82

PI-3 Kinase (Phosphotidylinositol 3’ kinase) to form PI 3,4,5-trisP
-Forms membrane docking sites for proteins with
PLECKSTRIN HOMOLOGY DOMAIN

Question 83

What can catalyze the dephosphorylation of PI3,4,5,-trisP ?

Answer 83

Phosphatase and tensin homolog (PTEN)- removes primary signal from pathway
-Mutation or Mis-expression of PTEN can lead to cancer

Question 84

If a protein has an SH2 Domain, what does this allow it to do?

Answer 84

Dock to phosphorylated Tyrosine residues on proteins - to then likely be activated themselves

Question 85

What is a Pleckstrin Homology domain for if a protein has it?

Answer 85

Good for targeting cellular membranes by binding specifically to phosphoinositides

Question 86

What is the role of Mitogen activated protein kinase cascades? (MAP-K)

Answer 86

Directing cellular response to diverse stimuli - osmotic stress, heat shock, proinflammatory cytokines
-regulate proliferation, gene expression,differentiation , mitosis, apoptosis

Question 87

What effect does insulin have on cAMP concentration?

Answer 87

Lowers cAMP by causing phosphodiesterase activation

Question 88

What are some functions of cAMP?

Answer 88

1. Allosteric activator of protein kinase A (PKA)- for rapid response to hormones such as epinephrine and glucagon
2. Slower response pathway-gene transcription through CREB

Question 89

What are three examples of things that can cross the cell membrane through diffusion?

Answer 89

Gases: such as Oxygen and CO2

Lipid Soluble substances like steroid hormones

Question 90

What is the Cystic Fibrosis Transmembrane Conductance regulator (CFTR) an example of ?

Answer 90

Chloride channel that is an example of a ligand-gated channel regulated through Phosphorylation
(Needs ATP to open as well)
-Simple Diffusion channel

Question 91

Patients with Type 1 diabetes have a decreased ability to transport _____ into tissues, thereby contributing to _______.

Answer 91

Glucose

Hyperglycemia (high blood glucose)

Question 92

Which Ion K+ or NA+ has which concentration in the cell and ouside?

Answer 92

[K+] is higher inside the cell

[Na+] is higher outside the cell

Question 93

Describe how the Na+-K+ ATPase (active transport) pump works?

Answer 93

3 Na+ ions bind on inside cell side of transporter (carrier)
ATP is hydrolyzed to ADP the carrier is phosphorylated-conformational change
Releases Na+ extracellularly , then 2 K+ ions bind
-Carrier is Dephosphorylated and that causes the K+ to be pulled inside with another conformation change back to original state of carrier shape

Question 94

Describe the main process of secondary active transport with the Na+-Glucose transporter?

Answer 94

1. A Na+ ion binds on Lumen side of membrane with 1 Glucose to carrier protein (inside of GI tract where food is)- Glucose moves against gradient into cell with Na+
2. Carrier releases Na+ and Glucose into cell
3. Sodium-Potassium pump sends Na+ back out to extracellular fluid to keep concentration low inside cell
4. Glucose moves with passive diffusion once in cell to extracellular fluid on passive transporter protein

Question 95

What are examples of passive transport?

Answer 95

Water
Gases - Oxygen, CO2
Steroids (Lipid soluble substances)
Voltage-Gated channels- with gradient
Anything moving with its gradient

Question 96

What are 2 examples of active transport?

Answer 96

Na+-K ATPase pump (maintains low Na+ intracellular concentration)
Ca+2-ATPase pump (maintains low Ca+ intracellular concentration - if fails cell can die)

Question 97

What is an example of facilitated diffusion via channel or carrier?

Answer 97

Cystic Fibrosis transmembrane conductance regulator (CFTR)

-needs ATP to phosphorylate to open channel, but then Cl- will diffuse through simple diffusion

Question 98

How do enzymes in the Lysosome mainly cleave amide, ester and other bonds?

Answer 98

Through hydrolases- adding water

Question 99

What is the optimal pH for Hydrolases in the lysosome?

Answer 99

5. 5

- Vesicular ATPases will pump in protons to keep the pH low inside the lysosome compared to the pH in the cell of 7.2

Question 100

What are two examples of Secondary active transport?

Answer 100

Glucose-Na+ transport
Pyruvate + electron transport into Mitochondria (electron is going with gradient and Pyruvate against gradient along for the ride)

Question 101

Where is Phosphotidylserine located ? net charge at pH 7.5 ?

Answer 101

Inner leaflet

negative charge

Question 102

What is the plasma membrane composed mostly of ?

Answer 102

Phospholipids and Cholesterol

Question 103

True or False:

Phospholipids are amphipathic (contain polar and non-polar ends)

Answer 103

True

Question 104

Where are the Fatty Acyl groups on the phospholipid?

Answer 104

Facing eachother on inside of bilayer membrane

Question 105

Where are the polar oligosaccharide groups of glycoproteins and glycolipids for plasma membrane?

Answer 105

Extending into aqueous medium outside and inside cell

Question 106

What does DAG stand for ?

Answer 106

Diacylglycerol

Question 107

What does the hormone Glucagon stimulate on liver parenchymal cells?

Answer 107

Glycogenolysis - Stimulates release of glucose from glycogen stores

• Endocrine hormone
• only stimulates in tissue with Glucagon receptors (like liver) - skeletal muscle does not have receptors for it

Question 108

What two types of messengers does the Nervous system secrete?

Answer 108

1. Biogenic amines (nitrogen containing molecules- usually contain amino acids or derivatives ACh, Epinephrine)
2. Neuropeptides -(4-35 amino acids-small) at synaptic junctions or in blood as neurohormones

Question 109

Where does Insulin come from ? what type of hormone?

Answer 109

Secreted from Beta cells of pancreas
-Endocrine hormone that travels in blood to target cells
(Polypeptide hormone)

Question 110

What are the classes of endocrine hormones?

Answer 110

Polypeptide hormones (insulin)
Catecholamines (epinephrine- also neurotransmitter)
Steroid hormones (derived from cholesterol)
Thyroid Hormones (derived from Tyrosine)

Question 111

What are two compounds difficult to classify but are usually classified as hormones even though they are not synthesized in endocrine cells?

Answer 111

Retinoids - Derivatives of Vitamin A

Vitamin D - Derived from Cholesterol

Question 112

What do Eicosamoids do? examples?

Answer 112

Prostaglandins, thromboxanes, leukotrienes

• Control cellular function in response to injury
• derivatives of arachidonic acid, 20 Carbon polyunsaturated fatty acid in membrane

Question 113

What types of polar molecule messengers can not rapidly cross the membrane and must bind to a plasma membrane receptor?

Answer 113

Peptide hormones
Cytokines
Catecholamines

Question 114

What are four examples of Lipophilic Hormones that use intracellular gene-specific transcription factors?

Answer 114

Steroid hormones
Thyroid hormones
Retinoic Acid (Active form Vit A)
Vitamin D

Question 115

What do the four examples of Lipophilic hormones use to travel in blood?

Answer 115

Serum Albumin - has a hydrophobic binding pocket
or more specific:
Steroid-hormone binding globulin(SHBG)
Thyroid-hormone binding globulin(TBG)

Question 116

The members of steroid/thyroid hormone receptors are mainly on the nucleus of cells, but what is the example of the receptor that is in the cytoplasm?

Answer 116

Glucocorticoid receptor - associated with Heat-shock proteins in cytoplasm

Question 117

what are the two main types of effects on the cell from membrane receptors?

Answer 117

1. rapid immediate effects on cellular ion levels or activation/inhibition of enzymes
2. (and/or) slower changes in the rate of gene expression for a specific set of proteins

Question 118

What does STAT stand for in the Jak-STAT receptor pathway?

Answer 118

Signal transducer and activator of transcription

Question 119

Describe Ras? what pathways is it found in?

Answer 119

A membrane bound monomeric G-protein that is located in the plasma membranse
in the Ras-MAP kinase pathway for Tyrosine Kinases
(Protein-Protein pathway)

Question 120

What is another name for the Raf protein that binds to Ras (that is in the membrane) when Ras is activated by GTP ?

Answer 120

MAPKKK (Mitogen-activated protein kinase kinase kinase

Question 121

What does Raf do once activated (Tyrosine-kinase pathway)?

Answer 121

Initiates phosphorylation cascade (MAP kinase cascade)
-leads to alternation of gene transcription activity up or down for many genes involved in cell survival and proliferation

Question 122

A signal transducer protein may only be specific for one type of receptor even though many have similar SH2 domain because _____.

Answer 122

Each Phosphotyrosine residue on receptor is surrounded by different amino acid sequence that forms specific binding domain (however one Grb2 can still bind to multiple receptors at once - just of the same type)

Question 123

Tyrosine Kinase receptors and heptahelical receptors have additional pathways involving intermediates such as _______.

Answer 123

Phosphotidylinositol phosphates (in signal transduction)

Question 124

True or False:
Phosphotidylinositol signaling molecules can be generated through either Tyrosine kinase receptors or heptahelical receptors.

Answer 124

True

Question 125

Phospholipase isozyme C (cleaver) of Gamma type is activated by which type of pathway? and is associated with what?

Answer 125

Tyrosine Kinase growth factor pathway receptors

Question 126

Phospholipase isozyme C (cleaver) of Beta type is activated by what ?

Answer 126

Heptahelical receptor-G protein signal transduction pathway

Question 127

What is different about the Insulin pathway from other growth factor receptors?

Answer 127

Exists in the membrane as a preformed dimer, with each half containing an alpha and beta subunit
-alpha is external
beta is internal side of cell

Question 128

In the insulin pathway , when Grb2 binds, it activates Ras and the ______.

Answer 128

MAP kinase pathway

Question 129

What are the three site pathways that the IRS when phosphorylates will trigger? (can still trigger other intermediate pathways too )

Answer 129

1. Grb2 to MAP Kinase pathway
2. Phosphotidylinositol 3’ kinase (PI-3 kinase) binds to IRS and is activated - goes over to create pleckstrin homology domains
3. Phospholipase C-Gamma (PLC- Gamma) binds and is activated -goes to intermediate pathway to make DAG and IP3

Question 130

What does the activation of PI-3 kinase do in the insulin pathway?

Answer 130

activates movement of Protein Kinase B (PKB- serine-threonine kinase) and phosphoinositide-dependent kinase 1 (PDK-1) that will mediate many down stream effects of insulin
-PH domains will bind to PI-3 kinase on each

Question 131

PDK-1 phosphorylates and activates what once is bound to Phosphotidylinositol 3-kinase ?

Answer 131

Protein Kinase B (PK-B)

Question 132

What are Jak-STAT tyrosine-kinase-associated family receptors used for mainly ?

Answer 132

Proliferation of certain cells in Immune response

- have more direct route to signal the nucleus than normal tyrosine-kinase receptors

Question 133

What is another name for Protein Kinase B ?

Answer 133

Akt

Question 134

What are the two main types of regulation of the Jak-STAT pathway?

Answer 134

1. Suppressors of cytokine signaling (SOCS)-first messenger level
2. Protein inhibitors of activated STAT (PIAS)- second messenger level

Question 135

Proteins in the transforming growth factor superfamily receptors that have :__________

Answer 135

Serine-Threonine kinase activity and associate with proteins from the Smad family (gene specific transcription factors)

Question 136

What is Transforming growth factor Beta (TCF-Beta) involved in ?

Answer 136

Serine-threonine kinase activity pathway
-cytokine/hormone for tissue repair, immune regulation, cell proliferation, bone morphogenetic proteins (control proliferation, differentiation, death during development)

Question 137

What is the Smad 4 ?

Answer 137

the Common Smad or Smad 4 or “co-Smad” that is not phosphorylated and forms a complex with the Smad that dissociated from the Type 1 TGF-Beta receptor

Question 138

How is Smad regulated through signal termination ?

Answer 138

Inhibitory Smad complex

Question 139

What are the G-alpha subunits that inhibit adenylyl cyclase called ?

Answer 139

G-apha -i

Question 140

What hydrolyzes cAMP to AMP ?

Answer 140

cAMP phosphodiesterase (resides in membranse like adenylyl cyclase does)

Question 141

How are concentrations of cAMP kept at low levels ?

Answer 141

balancing cAMP phosphodiesterase vs adenylyl cyclase - so that cAMP levels can change rapidly when hormone levels change

Question 142

How does insulin regulate cAMP levels ?

Answer 142

Lowers cAMP levels by causing cAMP phosphodiesterase asctivation (turns cAMP into AMP)

Question 143

What function does IP-3 have in cell after activation and dissociation ?

Answer 143

binding site in sarcoplasmic reticulum and the endoplasmic reticulum that stimulates the release of Ca(2+) - activates enzymes containing the calcium-calmoduln subunit (including a protein kinase)

Question 144

What does DAG do while staying in the membrane ?

Answer 144

activates protein kinase C, which then propogates the response by phosphorylating target proteins

Question 145

Describe how down-regulation works ?

Answer 145

Receptor number is reduced by after binding, during excess hormone signal, the receptor may be taken in by endocytosis in clathin-coated pits - then degraded or recycled back to cell surface (decreases number of receptors avaliable for activation)

Question 146

What are two examples of termination of signal at the first messenger or signal level ?

Answer 146

1. Insulin (or many polypeptide hormones) are taken up into liver and degraded.
2. Termination of ACh signal by Acetylcholinesterase

Question 147

What are 2 examples of signal termination at the receptor level ?

Answer 147

1. Serpentine receptors can be desensitized to messenger by phosphorylation, internalization, degradation
2. G-proteins will automatically terminate messages as they hydrolyze GTP via their intrinsic GTPase

Question 148

Besides termination at the receptor or primary messenger level, what is another termination pathway?

Answer 148

used by receptor kinases through protein phosphatases, enzymes that reverse the action of kinases

• one exists for every kinase that exists specific to it
• Receptors themselves can exhibit protein phosphatase activity

Question 149

What can Epinephrine do (a catecholamine released when exercising) for metabolism ?

Answer 149

promotes fuel mobilization for utilization

Question 150

Nitric oxide is able to diffuse into the cell (gas) and is a __________ , that will bind to receptor _____.

Answer 150

neurotransmitter/neurohormone
guanylyl cyclase that is floating in cytoplasm -
(this is the exception to the rule that intracellular receptors are always gene transcription factors)

Question 151

Membrane bound guanylyl cyclase receptors convert GTP to the second messenger ________ that is analougous to cAMP.

Answer 151

3,5,-cyclic GMP (cGMP)

Question 152

the receptors for guanyly cyclase are different from heptahelical receptors because they ________.

Answer 152

Do not require g-protein signaling to adenylyl cyclase, but directly produce cGMP

Question 153

What does cGMP do ?

Answer 153

elevated levels will activate protein kinase G which phosphorylates target proteins for a response
(treat heart failure, ED, angina pectoris through drugs that inhibit cGMP phosphodiesterase so that cGMP levels stay high)